module Data.List1 import public Data.Zippable %default total infixr 7 ::: public export record List1 a where constructor (:::) head : a tail : List a %name List1 xs, ys, zs ------------------------------------------------------------------------ -- Conversion ||| Forget that a list is non-empty public export forget : (xs : List1 a) -> List a forget (x ::: xs) = x :: xs ||| Check whether a list is non-empty export fromList : (xs : List a) -> Maybe (List1 a) fromList [] = Nothing fromList (x :: xs) = Just (x ::: xs) ------------------------------------------------------------------------ -- Basic functions public export singleton : (x : a) -> List1 a singleton a = a ::: [] export last : List1 a -> a last (x ::: xs) = loop x xs where loop : a -> List a -> a loop x [] = x loop _ (x :: xs) = loop x xs export foldr1' : (a -> b -> b) -> (a -> b) -> List1 a -> b foldr1' c n (x ::: xs) = loop x xs where loop : a -> List a -> b loop a [] = n a loop a (x :: xs) = c a (loop x xs) export foldr1 : (a -> a -> a) -> List1 a -> a foldr1 c = foldr1' c id export foldl1 : (a -> b) -> (b -> a -> b) -> List1 a -> b foldl1 n c (x ::: xs) = foldl c (n x) xs ------------------------------------------------------------------------ -- Append export appendl : (xs : List1 a) -> (ys : List a) -> List1 a appendl (x ::: xs) ys = x ::: xs ++ ys export append : (xs, ys : List1 a) -> List1 a append xs ys = appendl xs (forget ys) export lappend : (xs : List a) -> (ys : List1 a) -> List1 a lappend [] ys = ys lappend (x :: xs) ys = append (x ::: xs) ys ------------------------------------------------------------------------ -- Cons/Snoc public export cons : (x : a) -> (xs : List1 a) -> List1 a cons x xs = x ::: forget xs export snoc : (xs : List1 a) -> (x : a) -> List1 a snoc xs x = append xs (singleton x) ------------------------------------------------------------------------ -- Reverse public export reverseOnto : (acc : List1 a) -> (xs : List a) -> List1 a reverseOnto acc [] = acc reverseOnto acc (x :: xs) = reverseOnto (x ::: forget acc) xs public export reverse : (xs : List1 a) -> List1 a reverse (x ::: xs) = reverseOnto (singleton x) xs ------------------------------------------------------------------------ -- Instances export Semigroup (List1 a) where (<+>) = append export Functor List1 where map f (x ::: xs) = f x ::: map f xs export Applicative List1 where pure x = singleton x f ::: fs <*> xs = appendl (map f xs) (fs <*> forget xs) export Monad List1 where (x ::: xs) >>= f = appendl (f x) (xs >>= forget . f) export Foldable List1 where foldr c n (x ::: xs) = c x (foldr c n xs) null _ = False export Traversable List1 where traverse f (x ::: xs) = [| f x ::: traverse f xs |] export Show a => Show (List1 a) where show = show . forget export Eq a => Eq (List1 a) where (x ::: xs) == (y ::: ys) = x == y && xs == ys export Ord a => Ord (List1 a) where compare xs ys = compare (forget xs) (forget ys) ------------------------------------------------------------------------ -- Properties export consInjective : the (List1 a) (x ::: xs) === (y ::: ys) -> (x === y, xs === ys) consInjective Refl = (Refl, Refl) ------------------------------------------------------------------------ -- Zippable export Zippable List1 where zipWith f (x ::: xs) (y ::: ys) = f x y ::: zipWith' xs ys where zipWith' : List a -> List b -> List c zipWith' [] _ = [] zipWith' _ [] = [] zipWith' (x :: xs) (y :: ys) = f x y :: zipWith' xs ys zipWith3 f (x ::: xs) (y ::: ys) (z ::: zs) = f x y z ::: zipWith3' xs ys zs where zipWith3' : List a -> List b -> List c -> List d zipWith3' [] _ _ = [] zipWith3' _ [] _ = [] zipWith3' _ _ [] = [] zipWith3' (x :: xs) (y :: ys) (z :: zs) = f x y z :: zipWith3' xs ys zs unzipWith f (x ::: xs) = let (b, c) = f x (bs, cs) = unzipWith' xs in (b ::: bs, c ::: cs) where unzipWith' : List a -> (List b, List c) unzipWith' [] = ([], []) unzipWith' (x :: xs) = let (b, c) = f x (bs, cs) = unzipWith' xs in (b :: bs, c :: cs) unzipWith3 f (x ::: xs) = let (b, c, d) = f x (bs, cs, ds) = unzipWith3' xs in (b ::: bs, c ::: cs, d ::: ds) where unzipWith3' : List a -> (List b, List c, List d) unzipWith3' [] = ([], [], []) unzipWith3' (x :: xs) = let (b, c, d) = f x (bs, cs, ds) = unzipWith3' xs in (b :: bs, c :: cs, d :: ds)